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1 high-voltage process
Микроэлектроника: технология высоковольтных ИС -
2 high-voltage process
технологія високовольтних ІСEnglish-Ukrainian dictionary of microelectronics > high-voltage process
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3 high-voltage process
English-Russian dictionary of microelectronics > high-voltage process
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4 process
1. ім.1) процес; (технологічний) метод, спосіб2) технологія (див. т-ж technique, technology)3) (технологічна) обробка; технологічна операція2. дієсл. обробляти; проводити технологічну операцію - all-ion-implant process
- all-planar process
- Auger process
- batch process
- BH bias and hardness process
- BH process
- bonding process
- BOX process
- bulk CMOS process
- bumping process
- chip-on-board process
- closed CMOS process
- CMOS-on-sapphire process
- composite сеll logic process
- contact process
- conventional process
- deep охide isolation process
- DIFET process
- diffused eutectic aluminum process
- direct synthesis and crystal pull process
- double-diffused process
- double ion-implanted process
- double-layer polysilicon gate MOS process
- double-layer polysilicon gate process
- epitaxial deposition process
- epitaxial process
- epitaxial growth process
- flip-over process
- floating-gate silicon process
- front-end process
- gold-doped process
- guard-banded CMOS process
- heterogeneous process
- high-voltage process
- HMOS process
- imaging process
- implantation process
- in-house process
- interconnection process
- inverted meniscus process
- ion plating process
- isoplanar -S, -Z, -2 process
- isoplanar process
- junction-isolated process
- laser-recrystallized process
- lithographic process
- low-pressure process
- low VT process
- lost wafer process
- major process
- masking process
- master slice process
- mesa-isolation process
- metal-gate MOS process
- metal-gate process
- microbipolar LSI process
- micrometer-dimension process
- mid-film process
- Minimod process
- Mo-gate MOS process
- Mo-gate process
- nitride process
- nitrideless process
- NSA process
- oxide-film isolation process
- oxide isolated process
- oxygen refilling process
- patterning process
- phosphorous buried-emitter process
- photoablative process
- photolithography process
- photoresist process
- planar oxidation process
- Planox process
- plasma etch process
- Poly I process
- Poly II process
- Poly 5 process
- poly-oxide process
- Poly-Si process
- polysilicon-gate process
- poly-squared MOS process
- proprietary process
- PSA bipolar process
- PSA process
- refractory metal MOS process
- refractory metal process
- sacrificial охide process
- sapphire dielectric isolation process
- scaled Poly 5 process
- screen-and-fire process
- selective field-охidation process
- self-aligned gate process
- self-aligned process
- self-registered gate process
- self-registered process
- semi-additive process
- semiconductor-thermoplastic-dielectric process
- semicustom process
- shadow masking process
- silk-screen process
- single poly process
- SMOS process
- SOS/CMOS process
- stacked fuse bipolar process
- Stalicide process
- step-and-repeat process
- subtractive-fabrication process
- surface process
- Telemos process
- thermal process
- thermally асtivated surface process
- thermal-охidation process
- three-mask process
- triple-diffused process
- triply-poly process
- twin-tub process
- twin-well process
- V-groove MOS process
- V-groove process
- wet process
- 3-D process -
5 full voltage starter application
прямой пуск вращающегося электродвигателя
Пуск вращающегося электродвигателя путем непосредственного подключения его к питающей сети.
[ ГОСТ 27471-87]EN
direct-on-line starting
across-the-line starting (US)
the process of starting a motor by connecting it directly to the supply at rated voltage
[IEV number 411-52-15]FR
démarrage direct
mode de démarrage d'un moteur, consistant à lui appliquer directement sa pleine tension assignée
[IEV number 411-52-15]
Рис. ABB
Схема прямого пуска электродвигателяMagnetic only circuit-breaker - Автоматический выключатель с электромагнитным расцепителем
Contactor KL - Контактор KL
Thermal relay - Тепловое реле
Параллельные тексты EN-RU
Direct-on-line starting
Direct-on-line starting, which is often abbreviated as DOL, is perhaps the most traditional system and consists in connecting the motor directly to the supply network, thus carrying out starting at full voltage.Direct-on-line starting represents the simplest and the most economical system to start a squirrel-cage asynchronous motor and it is the most used.
As represented in Figure 5, it provides the direct connection to the supply network and therefore starting is carried out at full voltage and with constant frequency, developing a high starting torque with very reduced acceleration times.
The typical applications are relevant to small power motors also with full load starting.
These advantages are linked to some problems such as, for example, the high inrush current, which - in the first instants - can reach values of about 10 to 12 times the rated current, then can decrease to about 6 to 8 times the rated current and can persist to reach the maximum torque speed.The effects of such currents can be identified with the high electro-dynamical stresses on the motor connection cables and could affect also the windings of the motor itself; besides, the high inrush torques can cause violent accelerations which stress the transmission components (belts and joints) generating distribution problems with a reduction in the mechanical life of these elements.
Finally, also the possible electrical problems due to voltage drops on the supply line of the motor or of the connected equipment must be taken into consideration.
[ABB]Прямой пуск
Прямой пуск, который по-английски часто сокращенно обозначают как DOL, является, пожалуй наиболее распространенным способом пуска. Он заключается в непосредственном (т. е. прямом) подключении двигателя к питающей сети. Это означает, что пуск двигателя осуществляется при полном напряжении.Схема прямого пуска является наиболее простым, экономичным и чаще всего применяемым решением для электродвигателей с короткозамкнутым ротором.
Схема прямого подключения к сети представлена на рисунке 5. Пуск осуществляется при полном напряжении и постоянной частоте сети. Электродвигатель развивает высокий пусковой момент при коротком времени разгона.
Типичные области применения – маломощные электродвигатели, в том числе с пуском при полной нагрузке.
Однако, наряду с преимуществами имеются и определенные недостатки, например, бросок пускового тока, достигающий в первоначальный момент 10…12-кратного значения от номинального тока электродвигателя. Затем ток двигателя уменьшается примерно до 6…8-кратного значения номинального тока и будет держаться на этом уровне до тех пор, пока скорость двигателя не достигнет максимального значения.
Такое изменение тока оказывает значительное электродинамическое воздействие на кабель, подключенный к двигателю. Кроме того пусковой ток воздействует на обмотки двигателя. Высокий начальный пусковой момент может привести к значительному ускорению и следовательно к значительной нагрузке элементов привода (ремней, крепления узлов), что вызывает сокращение их срока службы.
И, наконец, следует принять во внимание возможное возникновение проблем, связанных с падением напряжения в линии питания двигателя и подключенного к этой линии оборудования.
[Перевод Интент]
Тематики
Синонимы
EN
- across-the-line starting (US)
- direct line starting
- direct operation of a motor
- direct starting
- direct-on-line starting
- DOL
- full voltage starter application
DE
FR
Англо-русский словарь нормативно-технической терминологии > full voltage starter application
-
6 технология высоковольтных ИС
Русско-английский словарь по микроэлектронике > технология высоковольтных ИС
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7 технология высоковольтных ИС
Microelectronics: high-voltage processУниверсальный русско-английский словарь > технология высоковольтных ИС
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8 дисковая катушечная обмотка
дисковая катушечная обмотка
Катушечная обмотка, собранная из отдельно намотанных катушек, выполненных в виде плоских спиралей из одного провода или нескольких параллельных проводов
[ ГОСТ 16110-82]Параллельные тексты EN-RU
Aluminum or copper foil disk in high voltage winding.
[ABB]Обмотка высшего напряжения дискового типа из алюминиевой или медной полосы.
[Перевод Интент]
Medium voltage, dry-type transformers may have their high voltage windings constructed using either the layer winding technique or the disc winding technique.
In the disc winding, the required number of turns are wound in a number of horizontal discs spaced along the axial length of the coil. The conductor is usually rectangular in cross-section and the turns are wound in a radial direction, one on top of the other i.e. one turn per layer, until the required number of turns per disc has been wound. The conductor is then moved to the next disc and the process repeated until all turns have been wound. There is an air space, or duct, between each pair of discs. The disc winding requires insulation only on the conductor itself, no additional insulation is required between layers, as in the layer winding.
Disc windingThe disc wound high voltage winding is usually wound in two halves, in order that the required voltage adjustment taps may be positioned at the electrical center of the winding. In this way the magnetic, or effective length of the winding is maintained, irrespective of which tap is used, and therefore the magnetic balance between primary and secondary windings is always close to its optimum. This is essential to maintain the short circuit strength of the winding, and reduces the axial electromagnetic forces which arise when the windings are not perfectly balanced.
Transformer with disc wound coils[Dry-Type disc wound transformers in medium voltage applications. Derek R. Foster I.Eng. MIIE]
Computer aided winding process
Рис. ABB
Тематики
Обобщающие термины
Синонимы
EN
Русско-английский словарь нормативно-технической терминологии > дисковая катушечная обмотка
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9 disc type winding
дисковая катушечная обмотка
Катушечная обмотка, собранная из отдельно намотанных катушек, выполненных в виде плоских спиралей из одного провода или нескольких параллельных проводов
[ ГОСТ 16110-82]Параллельные тексты EN-RU
Aluminum or copper foil disk in high voltage winding.
[ABB]Обмотка высшего напряжения дискового типа из алюминиевой или медной полосы.
[Перевод Интент]
Medium voltage, dry-type transformers may have their high voltage windings constructed using either the layer winding technique or the disc winding technique.
In the disc winding, the required number of turns are wound in a number of horizontal discs spaced along the axial length of the coil. The conductor is usually rectangular in cross-section and the turns are wound in a radial direction, one on top of the other i.e. one turn per layer, until the required number of turns per disc has been wound. The conductor is then moved to the next disc and the process repeated until all turns have been wound. There is an air space, or duct, between each pair of discs. The disc winding requires insulation only on the conductor itself, no additional insulation is required between layers, as in the layer winding.
Disc windingThe disc wound high voltage winding is usually wound in two halves, in order that the required voltage adjustment taps may be positioned at the electrical center of the winding. In this way the magnetic, or effective length of the winding is maintained, irrespective of which tap is used, and therefore the magnetic balance between primary and secondary windings is always close to its optimum. This is essential to maintain the short circuit strength of the winding, and reduces the axial electromagnetic forces which arise when the windings are not perfectly balanced.
Transformer with disc wound coils[Dry-Type disc wound transformers in medium voltage applications. Derek R. Foster I.Eng. MIIE]
Computer aided winding process
Рис. ABB
Тематики
Обобщающие термины
Синонимы
EN
Англо-русский словарь нормативно-технической терминологии > disc type winding
-
10 disc winding
дисковая катушечная обмотка
Катушечная обмотка, собранная из отдельно намотанных катушек, выполненных в виде плоских спиралей из одного провода или нескольких параллельных проводов
[ ГОСТ 16110-82]Параллельные тексты EN-RU
Aluminum or copper foil disk in high voltage winding.
[ABB]Обмотка высшего напряжения дискового типа из алюминиевой или медной полосы.
[Перевод Интент]
Medium voltage, dry-type transformers may have their high voltage windings constructed using either the layer winding technique or the disc winding technique.
In the disc winding, the required number of turns are wound in a number of horizontal discs spaced along the axial length of the coil. The conductor is usually rectangular in cross-section and the turns are wound in a radial direction, one on top of the other i.e. one turn per layer, until the required number of turns per disc has been wound. The conductor is then moved to the next disc and the process repeated until all turns have been wound. There is an air space, or duct, between each pair of discs. The disc winding requires insulation only on the conductor itself, no additional insulation is required between layers, as in the layer winding.
Disc windingThe disc wound high voltage winding is usually wound in two halves, in order that the required voltage adjustment taps may be positioned at the electrical center of the winding. In this way the magnetic, or effective length of the winding is maintained, irrespective of which tap is used, and therefore the magnetic balance between primary and secondary windings is always close to its optimum. This is essential to maintain the short circuit strength of the winding, and reduces the axial electromagnetic forces which arise when the windings are not perfectly balanced.
Transformer with disc wound coils[Dry-Type disc wound transformers in medium voltage applications. Derek R. Foster I.Eng. MIIE]
Computer aided winding process
Рис. ABB
Тематики
Обобщающие термины
Синонимы
EN
Англо-русский словарь нормативно-технической терминологии > disc winding
-
11 disk type winding
дисковая катушечная обмотка
Катушечная обмотка, собранная из отдельно намотанных катушек, выполненных в виде плоских спиралей из одного провода или нескольких параллельных проводов
[ ГОСТ 16110-82]Параллельные тексты EN-RU
Aluminum or copper foil disk in high voltage winding.
[ABB]Обмотка высшего напряжения дискового типа из алюминиевой или медной полосы.
[Перевод Интент]
Medium voltage, dry-type transformers may have their high voltage windings constructed using either the layer winding technique or the disc winding technique.
In the disc winding, the required number of turns are wound in a number of horizontal discs spaced along the axial length of the coil. The conductor is usually rectangular in cross-section and the turns are wound in a radial direction, one on top of the other i.e. one turn per layer, until the required number of turns per disc has been wound. The conductor is then moved to the next disc and the process repeated until all turns have been wound. There is an air space, or duct, between each pair of discs. The disc winding requires insulation only on the conductor itself, no additional insulation is required between layers, as in the layer winding.
Disc windingThe disc wound high voltage winding is usually wound in two halves, in order that the required voltage adjustment taps may be positioned at the electrical center of the winding. In this way the magnetic, or effective length of the winding is maintained, irrespective of which tap is used, and therefore the magnetic balance between primary and secondary windings is always close to its optimum. This is essential to maintain the short circuit strength of the winding, and reduces the axial electromagnetic forces which arise when the windings are not perfectly balanced.
Transformer with disc wound coils[Dry-Type disc wound transformers in medium voltage applications. Derek R. Foster I.Eng. MIIE]
Computer aided winding process
Рис. ABB
Тематики
Обобщающие термины
Синонимы
EN
Англо-русский словарь нормативно-технической терминологии > disk type winding
-
12 disk winding
дисковая катушечная обмотка
Катушечная обмотка, собранная из отдельно намотанных катушек, выполненных в виде плоских спиралей из одного провода или нескольких параллельных проводов
[ ГОСТ 16110-82]Параллельные тексты EN-RU
Aluminum or copper foil disk in high voltage winding.
[ABB]Обмотка высшего напряжения дискового типа из алюминиевой или медной полосы.
[Перевод Интент]
Medium voltage, dry-type transformers may have their high voltage windings constructed using either the layer winding technique or the disc winding technique.
In the disc winding, the required number of turns are wound in a number of horizontal discs spaced along the axial length of the coil. The conductor is usually rectangular in cross-section and the turns are wound in a radial direction, one on top of the other i.e. one turn per layer, until the required number of turns per disc has been wound. The conductor is then moved to the next disc and the process repeated until all turns have been wound. There is an air space, or duct, between each pair of discs. The disc winding requires insulation only on the conductor itself, no additional insulation is required between layers, as in the layer winding.
Disc windingThe disc wound high voltage winding is usually wound in two halves, in order that the required voltage adjustment taps may be positioned at the electrical center of the winding. In this way the magnetic, or effective length of the winding is maintained, irrespective of which tap is used, and therefore the magnetic balance between primary and secondary windings is always close to its optimum. This is essential to maintain the short circuit strength of the winding, and reduces the axial electromagnetic forces which arise when the windings are not perfectly balanced.
Transformer with disc wound coils[Dry-Type disc wound transformers in medium voltage applications. Derek R. Foster I.Eng. MIIE]
Computer aided winding process
Рис. ABB
Тематики
Обобщающие термины
Синонимы
EN
дисковая обмотка
—
[Я.Н.Лугинский, М.С.Фези-Жилинская, Ю.С.Кабиров. Англо-русский словарь по электротехнике и электроэнергетике, Москва, 1999 г.]Тематики
- электротехника, основные понятия
EN
Англо-русский словарь нормативно-технической терминологии > disk winding
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13 technique
2) технология; (технологический) приём3) алгоритм4) оборудование; технические средства; техника•-
active neutron technique
-
Afmag technique
-
airborne technique
-
air-conditioning technique
-
alignment technique
-
alloy-diffusion technique
-
anchoring technique
-
angled-lapping technique
-
angle-lapping technique
-
angled-lap technique
-
angle-lap technique
-
apertured-detector technique
-
arc-melting technique
-
assembly technique
-
audio record cutting technique
-
audio-frequency magnetic technique
-
batch-fabrication technique
-
batch technique
-
beam-lead microcircuit technique
-
birefringent coating technique
-
bonding technique
-
brittle coating technique
-
broadside technique
-
BTR technique
-
carbon extraction technique
-
cementing technique
-
check summation technique
-
check sum technique
-
chemiluminescence technique
-
cine technique
-
circuit technique
-
CM technique
-
collector-diffusion isolation technique
-
computer simulation techniques
-
computing technique
-
conformable masking technique
-
coring technique
-
cryogenic technique
-
crystal growth technique
-
crystal-pulling technique
-
curing technique
-
curve-fitting technique
-
Czochralski growth technique
-
Czochralski technique
-
decoration technique
-
design technique
-
destructive inspection technique
-
diffusion technique
-
direct writing technique
-
diversity technique
-
doping technique
-
dot-and-dash technique
-
double-specimen technique
-
double-theodolite technique
-
drilling technique
-
dry etching technique
-
dry etch technique
-
echo-sounding technique
-
editing technique
-
electrodeless technique
-
electron channeling technique
-
electron-ion storage technique
-
electroplating technique
-
encapsulation technique
-
energy conservation technique
-
energy conversion technique
-
epitaxial growth technique
-
epitaxial technique
-
etching technique
-
etch technique
-
evaporation technique
-
expanding-spread technique
-
fabrication technique
-
face-down technique
-
Fane knit technique
-
figure-of-eight technique
-
film technique
-
film-carrier technique
-
fine-line technique
-
fixed-abrasive machining technique
-
flip-chip technique
-
floating-zone technique
-
float-zone technique
-
floating-charge technique
-
flood routing technique
-
fluidization technique
-
folded-spectrum technique
-
forecasting technique
-
fracture replica technique
-
freezing technique
-
gamma-ray technique
-
geomagnetic induction technique
-
graphical design technique
-
gravity anchoring technique
-
growing technique
-
head space technique
-
heat pulse technique
-
heuristic technique
-
high-speed motion-picture technique
-
high-tech machining technique
-
high-vacuum technique
-
high-voltage technique
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high-voltage testing technique
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high-voltage test technique
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holographic technique
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horizontal stacking technique
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hyperflow technique
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imaging technique
-
in-cycle gaging technique
-
infrared nondestructive technique
-
in-process gaging technique
-
integrated-circuit technique
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integrated technique
-
interconnection technique
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interference technique
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ion implantation technique
-
ion-exchange technique
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isolation technique
-
isotope correlation technique
-
job setting technique
-
junction isolation technique
-
ladle-degassing technique
-
layout technique
-
lift-off technique
-
lithographic technique
-
long-hole technique
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loose-abrasive machining technique
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manufacturing technique
-
mask technique
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masking technique
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mass-flow technique
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mass-spectrometric technique
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matrix technique
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microalloy technique
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microelectronic technique
-
microfabrication technique
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microprobe technique
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microscopic technique
-
microstructure fabrication technique
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microstructure technique
-
mid-depth tow technique
-
motion-picture technique
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mounting technique
-
multicamera technique
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multichip bonding technique
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multiple seismometer technique
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multiple-access technique
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near-bottom tow technique
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nondestructive inspection technique
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normal-freezing technique
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observing technique
-
optimizing technique
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ordered elimination technique
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overlay technique
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packaging technique
-
parallel-line technique
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parts classification technique
-
pattern recognition technique
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pattern-defining technique
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phase separation and leaching technique
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photoelastic technique
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photofinishing technique
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photographic technique
-
photolithographic technique
-
photoprocessing technique
-
photoresist-processing technique
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piled anchoring technique
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piled/gravity anchoring technique
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pilot technique
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potential-drop-ratio technique
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preferential etching technique
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preferential etch technique
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printed-circuit technique
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probe technique
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processing technique
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production technique
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program production technique
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programming technique
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projection technique
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pulse-echo technique
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pyrometric technique
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radioactive tracer technique
-
radio-echo technique
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ramp assisted toil casting technique
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refrigeration technique
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registration technique
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reocasting technique
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replica technique
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river-basin simulation technique
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robotic handling techniques
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roll-and-scroll technique
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roll technique
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round-robin technique
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screen-printing technique
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selective ion etching technique
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selective ion etch technique
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self-synchronization technique
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side-wall neutron technique
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silk-screening technique
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simulation technique
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spill-cleaning technique
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spin-on technique
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sputtering technique
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stimulation technique
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strain anneal technique
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structural arrest technique
-
suction anchoring technique
-
surface passivation technique
-
tape-automated-bonding technique
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technique of directional crystallization
-
technique of mold reciprocation
-
television production technique
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television technique
-
testing technique
-
thermocompression technique
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through-flow line servicing technique
-
time-lapse technique
-
touch trigger probing technique
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tribometric technique
-
two-point technique
-
ultrahigh-vacuum technique
-
unmanned production technique
-
vacuum technique
-
vapor-phase epitaxial technique
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vertical crystal pulling technique
-
vertical pulling technique
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video tape editing technique
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voltage balancing technique
-
water allocation technique
-
water injection-fume exhaustion technique
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water-system optimization technique
-
wet etching technique
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wet etch technique
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wire-line technique
-
zone-melting technique -
14 state
1) состояние2) режим3) формулировать; выражать знаками4) ставить (напр., задачу)•- anisochronic system state
- authorized state
- conducting state
- consistent state
- correct state
- dead state
- delta states
- deviated process state
- direct-current state
- disabled state
- distinguishable states
- don't care state
- dormant state
- emergency state
- empty state
- essential state
- excited state
- execution state
- failed state
- finite state
- floating state
- forced state
- halted state
- high-voltage state
- high state
- high-impedance state
- idle state
- inaccesible state
- inconsistent state
- indeterminate state
- initial state
- input state
- insane state
- in-sync state
- intentional state
- intermediate state
- interrogation state
- inverted state
- irrevisible state
- isochronic system state
- knowledge state
- low-voltage state
- low state
- magnetic state
- match state
- metastable state
- mismatch state
- naught state
- off state
- off-line state
- on state
- one state
- one wait state
- on-line state
- out-of-sync state
- output state
- perfect state
- prepared state
- privileged state
- problem state
- pseudofailed state
- quiescent state
- recognizable states
- relatively negative state
- relatively positive state
- remanent state
- request state
- reset state
- residual state - semi-hidden state
- set state
- silent state
- slave state
- stable state
- stationary state
- steady state
- stored state
- successor state
- supervisor state
- suspended program state
- suspended state
- transient state
- transition state
- undefined state
- unessential state
- uninterruptable state
- unknown state
- unmodified state
- unstable state
- up state
- user state
- valid state
- wait state
- X-state
- zero state
- Z-stateEnglish-Russian dictionary of computer science and programming > state
-
15 equipment
1) оборудование; оснащение; аппаратура, аппаратные средства; арматура2) армировка ( шахтного ствола)3) ж.-д. подвижной состав4) снаряжение•to abuse an equipment — неквалифицированно обращаться с оборудованием-
turn-key pattern equipment
-
accessory starting equipment
-
aerial equipment
-
aeronautical equipment
-
aerospace ground equipment
-
agglomeration equipment
-
air brake equipment
-
airborne direction finding equipment
-
airborne electronics equipment
-
airborne equipment
-
airborne identification equipment
-
airborne weather equipment
-
air-cleaning equipment
-
air-conditioning equipment
-
aircraft equipment
-
aircraft recorder equipment
-
air-handling equipment
-
air-insulated equipment
-
air-processing equipment
-
airslide equipment
-
air-survey equipment
-
alignment equipment
-
analog equipment
-
ancillary equipment
-
answering equipment
-
area navigation equipment
-
associated-gas handling equipment
-
atmospheric heat-transfer equipment
-
audio equipment
-
automatic control equipment
-
automatic insertion equipment
-
automatic stabilization equipment
-
automatic test equipment
-
auxiliary equipment
-
backup equipment
-
ballasting equipment
-
batch-preparation equipment
-
bathroom-and-lavatory equipment
-
blasting equipment
-
blind flight equipment
-
block equipment
-
bookbinding equipment
-
brake equipment
-
bread-making equipment
-
bridling equipment
-
broadcasting equipment
-
broadcast equipment
-
brown stock washing equipment
-
built-in equipment
-
built-in test equipment
-
cable logging equipment
-
cab-signaling equipment
-
calling equipment
-
camp equipment
-
can-making equipment
-
canning equipment
-
caption-producing equipment
-
carburetor heat equipment
-
cast molding equipment
-
catering equipment
-
centrifugal air-conditioning equipment
-
charging equipment
-
check-out equipment
-
chemically-proof electrical equipment
-
chilling equipment
-
CMC equipment
-
coal-handling equipment
-
cockpit equipment
-
coding equipment
-
coil-handling equipment
-
coil-in-box equipment
-
coke-side equipment
-
cold-draw equipment
-
collision warning equipment
-
commercial equipment
-
commercial refrigeration equipment
-
common equipment
-
communication security equipment
-
communications equipment
-
communication equipment
-
commuter equipment
-
comparison equipment
-
component-insertion equipment
-
composing equipment
-
compound equipment
-
compression refrigeration equipment
-
compressor equipment
-
computer equipment
-
conning equipment
-
construction equipment
-
continuous fusing equipment
-
control equipment
-
cooking equipment
-
copying equipment
-
cord latex equipment
-
crane electrical equipment
-
crushing equipment
-
current collection equipment
-
customer premises equipment
-
data acquisition equipment
-
data terminal equipment
-
data transmission equipment
-
data-circuit terminating equipment
-
data-processing equipment
-
dead-reckoning equipment
-
deairing equipment
-
deck equipment
-
depositing equipment
-
detonating equipment
-
digital equipment
-
digital multiplex equipment
-
digital still-stare equipment
-
digital video equipment
-
display equipment
-
distance measuring equipment
-
distillation equipment
-
ditching equipment
-
domestic refrigeration equipment
-
doping equipment
-
downhole equipment
-
downstream equipment
-
drill stem equipment
-
drilling equipment
-
drilling mud handling equipment
-
drilling mud mixing equipment
-
drip-proof electrical equipment
-
dry-quenching equipment
-
dual laterolog equipment
-
dusting equipment
-
dustproof electrical equipment
-
dust-tight electrical equipment
-
earth-moving equipment
-
edge-strip scanning equipment
-
editing equipment
-
electric face equipment
-
electrical equipment
-
electrodialysis membrane equipment
-
electroheat equipment
-
electromagnetic exploration equipment
-
electronic countermeasures equipment
-
electronic equipment
-
emergency breathing equipment
-
emission-control equipment
-
engine-testing equipment
-
environmental simulation equipment
-
error-control equipment
-
evacuating equipment
-
excavating equipment
-
explosionproof electrical equipment
-
face equipment
-
facsimile equipment
-
farm equipment
-
field equipment
-
field-production equipment
-
film equipment
-
film-scanning equipment
-
finishing equipment
-
fire-extinguishing equipment
-
firing equipment
-
fishing equipment
-
fixed equipment
-
flame-hardening equipment
-
flameproof electrical equipment
-
flow head equipment
-
formation density equipment
-
fracturing head equipment
-
fuel-injection equipment
-
gas conditioning equipment
-
gas processing equipment
-
general-purpose equipment
-
glider launch equipment
-
glider tow equipment
-
government furnished equipment
-
grading equipment
-
graphic arts equipment
-
grinding-mixing equipment
-
ground-based electrical equipment
-
ground electrical equipment
-
harvesting equipment
-
hauling equipment
-
heat-exchange equipment
-
heat-transfer equipment
-
heavy-duty equipment
-
higher-horsepower equipment
-
high-maintenance equipment
-
high-performance equipment
-
high-pressure spray equipment
-
high-temperature head equipment
-
high-voltage equipment
-
hoisting equipment
-
home video equipment
-
horizontal-loop equipment
-
household equipment
-
humidity test equipment
-
hydraulic equipment
-
hygiene equipment
-
indoor electrical equipment
-
induced-polarization equipment
-
induced-polarization logging equipment
-
induction hardening equipment
-
induction log equipment
-
inductive heating equipment
-
industrial equipment
-
industrial-television equipment
-
inertial navigational equipment
-
ingot-forming equipment
-
in-line equipment
-
insertion equipment
-
inspection equipment
-
instrument-landing equipment
-
integral test equipment
-
intercity equipment
-
intercooling equipment
-
interlocking equipment
-
isophasing equipment
-
landing equipment
-
laser illumination tracking equipment
-
life saving equipment
-
lighting equipment
-
linear matting equipment
-
loading equipment
-
logging equipment
-
log-processing equipment
-
low-maintenance equipment
-
lumber-drying equipment
-
lumberman's equipment
-
machine-computer interfacing equipment
-
magnetic-tape equipment
-
magnetotelluric equipment
-
maintenance equipment
-
makeup equipment
-
manual test equipment
-
marine equipment
-
marine refrigeration equipment
-
materials handling equipment
-
MDI equipment
-
measuring equipment
-
mechanical refrigerating equipment
-
metering equipment
-
microfilm duplicating equipment
-
milling equipment
-
mine electrical equipment
-
mineral processing equipment
-
mine-rescue equipment
-
mining equipment
-
mixing equipment
-
mobile equipment
-
monitoring equipment
-
monophonic equipment
-
multidimension gaging equipment
-
multiplex equipment
-
navigation equipment
-
NC equipment
-
night vision equipment
-
night-flying equipment
-
nozzle-stopper equipment
-
office equipment
-
off-line equipment
-
oil field equipment
-
oil-dispensing equipment
-
on-line equipment
-
open-type electrical equipment
-
optional equipment
-
ore-handling equipment
-
outdoor electrical equipment
-
outside broadcasting equipment
-
overhead equipment
-
paper converting equipment
-
parts handling equipment
-
pass-through stretch wrapping equipment
-
payoff equipment
-
perforating equipment
-
peripheral equipment
-
permanent way equipment
-
phototypesetting equipment
-
photovoltaic equipment
-
Piggyback equipment
-
platemaking equipment
-
pneumatic equipment
-
portable electrical equipment
-
portable equipment
-
power equipment
-
power-conditioning equipment
-
powerhouse permanent equipment
-
printing equipment
-
process control equipment
-
processing equipment
-
production equipment
-
production run equipment
-
projection equipment
-
protected equipment
-
protection equipment
-
public address equipment
-
pusher-side equipment
-
quenching equipment
-
radar equipment
-
radio communication equipment
-
radio equipment
-
radio receiving equipment
-
radio transmitting equipment
-
radioactivity well logging equipment
-
rail brake equipment
-
railway equipment
-
ranging equipment
-
readout equipment
-
reciprocating air-conditioning equipment
-
reciprocating compression equipment
-
reference measuring equipment
-
reflection equipment
-
refraction equipment
-
refrigerating equipment
-
remote control equipment
-
residue recovery equipment
-
resistivity logging equipment
-
rigging equipment
-
round-trip equipment
-
running equipment
-
sawmill equipment
-
scrap-handling equipment
-
scrap-processing equipment
-
scrap-reclaiming equipment
-
sealed electrical equipment
-
security equipment
-
seismic exploration equipment
-
self-contained equipment
-
self-potential equipment
-
service equipment
-
setting equipment
-
shear knife changing equipment
-
shipboard equipment
-
shooting equipment
-
sign towing equipment
-
signal-conversion equipment
-
simple equipment
-
sinking equipment
-
slaughtering equipment
-
slicing equipment
-
slide equipment
-
small commercial refrigeration equipment
-
smoking equipment
-
snow handling equipment
-
solids control equipment
-
sonic equipment
-
sound equipment
-
spark-erosion equipment
-
special-effects equipment
-
special-purpose equipment
-
splashproof equipment
-
spray equipment
-
stand-alone equipment
-
standard equipment
-
standardization equipment
-
standby equipment
-
stationary equipment
-
stereophonic equipment
-
stereo equipment
-
stoplog handling equipment
-
stripping equipment
-
strip-storage equipment
-
studio-production equipment
-
studio equipment
-
stump-pulling equipment
-
stump-to-roadside equipment
-
submersible electrical equipment
-
subtitling equipment
-
supervisory equipment
-
surface equipment
-
surface hardening equipment
-
surface measuring equipment
-
survival equipment
-
switching equipment
-
talk-back equipment
-
telecine equipment
-
television automatic-monitoring equipment
-
television equipment
-
television field equipment
-
television relay equipment
-
television studio equipment
-
television-broadcasting equipment
-
television-film equipment
-
tensioning equipment
-
terminal equipment
-
testing equipment
-
test equipment
-
timing equipment
-
totally enclosed electrical equipment
-
tower equipment
-
track circuit equipment
-
trackside equipment
-
track equipment
-
tracking equipment
-
traction electrical equipment
-
train-stop equipment
-
transient electromagnetic equipment
-
tunneling equipment
-
turning gaging equipment
-
turnout equipment
-
underground equipment
-
underwater equipment
-
underwater TV equipment
-
user equipment
-
vacuum coating equipment
-
vacuum-casting equipment
-
vacuum-distillation equipment
-
vacuum-treating equipment
-
vehicular equipment
-
ventilating equipment
-
video equipment
-
video tape editing equipment
-
warp knitting equipment
-
water treating equipment
-
waterproof electrical equipment
-
welding equipment
-
wellhead equipment
-
well-logging equipment
-
wheel alignment equipment
-
woodworking equipment -
16 Anschütz, Ottomar
SUBJECT AREA: Photography, film and optics[br]b. 1846 Lissa, Prussia (now Leszno, Poland) d. 1907[br]German photographer, chronophotographer ana inventor.[br]The son of a commercial photographer, Anschütz entered the business in 1868 and developed an interest in the process of instantaneous photography. The process was very difficult with the contemporary wet-plate process, but with the introduction of the much faster dry plates in the late 1870s he was able to make progress. Anschütz designed a focal plane shutter capable of operating at speeds up to 1/1000 of a second in 1883, and patented his design in 1888. it involved a vertically moving fabric roller-blind that worked at a fixed tension but had a slit the width of which could be adjusted to alter the exposure time. This design was adopted by C.P.Goerz, who from 1890 manufactures a number of cameras that incorporated it.Anschütz's action pictures of flying birds and animals attracted the attention of the Prussian authorities, and in 1886 the Chamber of Deputies authorized financial support for him to continue his work, which had started at the Hanover Military Institute in October 1885. Inspired by the work of Eadweard Muybridge in America, Anschütz had set up rows of cameras whose focal-plane shutters were released in sequence by electromagnets, taking twenty-four pictures in about three-quarters of a second. He made a large number of studies of the actions of people, animals and birds, and at the Krupp artillery range at Meppen, near Essen, he recorded shells in flight. His pictures were reproduced, and favourably commented upon, in scientific and photographic journals.To bring the pictures to the public, in 1887 he created the Electro-Tachyscope. The sequence negatives were printed as 90 x 120 mm transparencies and fixed around the circumference of a large steel disc. This was rotated in front of a spirally wound Geissler tube, which produced a momentary brilliant flash of light when a high voltage from an induction coil was applied to it, triggered by contacts on the steel disc. The flash duration, about 1/1000 of a second, was so short that it "froze" each picture as it passed the tube. The pictures succeeded each other at intervals of about 1/30 of a second, and the observer saw an apparently continuously lit moving picture. The Electro-Tachyscope was shown publicly in Berlin at the Kulturministerium from 19 to 21 March 1887; subsequently Siemens \& Halske manufactured 100 machines, which were shown throughout Europe and America in the early 1890s. From 1891 his pictures were available for the home in the form of the Tachyscope viewer, which used the principle of the zoetrope: sequence photographs were printed on long strips of thin card, perforated with narrow slots between the pictures. Placed around the circumference of a shallow cylinder and rotated, the pictures could be seen in life-like movement when viewed through the slots.In November 1894 Anschütz displayed a projector using two picture discs with twelve images each, which through a form of Maltese cross movement were rotated intermittently and alternately while a rotating shutter allowed each picture to blend with the next so that no flicker occurred. The first public shows, given in Berlin, were on a screen 6×8 m (20×26 ft) in size. From 22 February 1895 they were shown regularly to audiences of 300 in a building on the Leipzigstrasse; they were the first projected motion pictures seen in Germany.[br]Further ReadingJ.Deslandes, 1966, Histoire comparée du cinéma, Vol. I, Paris. B.Coe, 1992, Muybridge and the Chronophotographers, London.BC -
17 amplifier
підсилювач- antilogarithmic amplifier- antilog amplifier
- bi-FET amplifier
- bulk-effect amplifier
- charge-transfer amplifier
- Darlington amplifier
- differential amplifier
- drift-stabilized operational amplifier
- high-output current operational amplifier
- high-stew rate operational amplifier
- high-speed operational amplifier
- high-voltage operational amplifier
- hybrid amplifier
- IC amplifier
- logarithmic amplifier
- low-drift operational amplifier
- mixed-process amplifier
- monolithic amplifier
- off-chip amplifier
- one-chip amplifier
- on-chip amplifier
- operational amplifier
- optical isolation amplifier
- optically-coupled amplifier
- sample-and-hold amplifier
- semiconductor amplifier
- S/H amplifier
- small-signal amplifier
- thick-film amplifier
- thin-film amplifierEnglish-Ukrainian dictionary of microelectronics > amplifier
-
18 engineering
1) техника2) технология3) разработка; проектирование; конструирование•-
acoustic engineering
-
aerodrome engineering
-
aeronautical engineering
-
architectural engineering
-
atomic power engineering
-
bridge engineering
-
building engineering
-
cinematographic engineering
-
circuit engineering
-
civil engineering
-
clothing engineering
-
combustion engineering
-
communication engineering
-
computation engineering
-
computer engineering
-
computer-aided engineering
-
construction engineering
-
control engineering
-
cryogenic engineering
-
design engineering
-
development engineering
-
drainage engineering
-
earthquake engineering
-
electrical engineering
-
electronic engineering
-
environmental engineering
-
fire engineering
-
food engineering
-
foundation engineering
-
fuel engineering
-
genetic engineering
-
geologic engineering
-
harbor engineering
-
heat engineering
-
heat-power engineering
-
high-voltage engineering
-
highway engineering
-
human engineering
-
hydraulic engineering
-
hydropower engineering
-
illumination engineering
-
industrial engineering
-
irrigation engineering
-
knowledge engineering
-
lighting engineering
-
locomotive engineering
-
manufacturing engineering
-
microwave engineering
-
mining engineering
-
municipal engineering
-
nuclear engineering
-
nuclear-power engineering
-
optical engineering
-
package engineering
-
petroleum engineering
-
photographic engineering
-
power engineering
-
process engineering
-
production engineering
-
quality engineering
-
radar engineering
-
radio engineering
-
railroad engineering
-
reactor engineering
-
refractory engineering
-
refrigerating engineering
-
reliability engineering
-
research engineering
-
reservoir engineering
-
reverse engineering
-
river engineering
-
safety engineering
-
sanitary engineering
-
sea floor engineering
-
semiconductor engineering
-
software engineering
-
solar engineering
-
solar power engineering
-
structural engineering
-
sun power engineering
-
systems engineering
-
system engineering
-
tunnel engineering
-
vacuum engineering
-
warp knitting engineering
-
water engineering
-
water-power engineering
-
water-supply engineering
-
welding engineering
-
wind-power engineering -
19 на безопасном расстоянии от
•All personnel should keep clear of (or at a safe distance from) high-voltage equipment.
* * *На безопасном расстоянии отIt requires mounting an accelerometer on the tool holder safely away from the cutting process.The operators should keep clear of moving parts.Русско-английский научно-технический словарь переводчика > на безопасном расстоянии от
-
20 test
1) испытание; испытания || испытывать2) проверка; контроль || проверять; контролировать3) тест; тестирование || тестировать5) стат. критерий•- accelerated testto dry test — испытывать без резания, испытывать станок без резания, испытывать на холостом ходу
- acceptance test
- alignment test
- alternative test
- angular test
- approval test
- axial load test
- axial test
- back-to-back test
- balance test
- bar-to-bar test
- benchmark test
- bend test
- bending fatigue test
- bending test
- bend-over test
- black-band test
- blow-bending test
- blueing test
- bond test
- brake test
- braking test
- breaking test
- Brinell hardness test
- Brinell test
- buckling test
- calibrated driving machine test
- calibration test
- calorimetric test
- camera-aided test
- carbon test
- certification test
- Charpy impact test
- Charpy test
- check test
- check-out test
- closure test
- cold bend test
- cold pressing test
- collision test
- commissioning test
- commutation test
- comparative test
- compression test
- computer-aided design and test
- computer-assisted fault isolation test
- cone-indentation test
- cone-thrust test
- conformance test
- controlled test
- core test
- corrosion fatigue test
- corrosion test
- creep test
- cutting test
- deflection tests
- destruction test
- destructive test
- determinative test
- development test
- developmental test
- diagnostic test
- diamond-pyramid hardness test
- discrimination test
- disk test
- drawing test
- driving test
- driving-profile test
- drop test
- durability test
- dynamic test
- dynamometer test
- eddy current test
- efficiency test
- electrical back-to-back test
- end-to-end test
- endurance test
- environmental test
- etching test
- evaluation test
- extraction test
- facing test
- factory test
- fatigue test
- fault detection test
- fault location test
- field test
- final test
- flattening test
- flex life test
- flexural test
- flexure test
- forging test
- friction test
- frictional test
- full-scale test
- functional test
- gear life test
- geometric test
- geometrical test
- grab test
- ground test
- hardness test
- harmonic test
- high-voltage test
- hydraulic pressure test
- hydraulic test
- identification tests
- impact test
- impulse test
- in-process test
- inspection test
- investigation test
- Jominy test
- L-2 test
- lab test
- laboratory test
- leak test
- life test
- light load test
- load test
- machinability test
- machine tool alignment test
- machine tool test
- machining performance test
- magnetic test
- maintenance test
- mechanical test
- micrographic test
- monitoring test
- noise-level test
- no-load test
- nondestructive test
- official test
- open-circuit test
- operating test
- optimality test
- out-of-control tests
- overhead load test
- overload test
- overspeed test
- peel test
- performance test
- periodic test
- periodical test
- practical test
- precision test
- predelivery test
- preinstallation test
- preliminary test
- preproduction test
- preventive test
- production test
- production-type test
- profile tests
- proof test
- qualification test
- quality assurance test
- quality conformance test
- quality performance test
- random test
- ravel test
- reduced test
- reliability compliance test
- reliability determination test
- reliability test
- response test
- retardation test
- rig test
- roller fatigue test
- roller life test
- routine check tests
- routine test
- running test
- rupture test
- safety test
- saline droplet corrosion test
- sampling test
- scoring test
- sequential test
- service test
- shear test
- shearing test
- shock test
- short test
- simulated service test
- single test
- soft test
- sound test
- special test
- stability test
- standard test
- starting test
- state tests
- static bending test
- static test
- step stress test
- storage test
- straightening test
- strength test
- strip test
- sudden short-circuit test
- sustained power test
- sustained short-circuit test
- tear test
- tear-apart test
- temperature-rise test
- tensile test
- tension test
- test of the accuracy
- thermal test
- time-restricted test
- tool wear test
- torsional test
- transportability test
- trouble-free assurance test
- trouble-free quality assurance test
- Turing test
- twist test
- twisting test
- type approval test
- type test
- upsetting test
- use test
- validation test
- vibration test
- waveform test
- wear test
- working testEnglish-Russian dictionary of mechanical engineering and automation > test
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Hall-Héroult process — The Hall Héroult process is the major industrial process for the production of aluminium. It involves dissolving alumina in molten cryolite, and electrolysing the solution to obtain pure aluminium metal.ProcessAluminium cannot be produced by the… … Wikipedia
Milan–Bologna high-speed railway — The high speed line next to the Autostrada A1 near Pieve Fissiraga … Wikipedia
MOSFET — Two power MOSFETs in the surface mount package D2PAK. Operating as switches, each of these components can sustain a blocking voltage of 120 volts in the OFF state, and can conduct a continuous current of 30 amperes in the ON state, dissipating up … Wikipedia
radiation measurement — ▪ technology Introduction technique for detecting the intensity and characteristics of ionizing radiation, such as alpha, beta, and gamma rays or neutrons, for the purpose of measurement. The term ionizing radiation refers to those… … Universalium